A final focus magnet design that uses super-ferric magnets is introduced for the SuperB interaction region. The baseline design has air-core super-conducting quadrupoles.This idea instead uses super-conductingwire in an iron yoke. The iron is in the shape of a Panofsky quadrupole and this allows two quadrupoles to be side- by-side with no intervening iron as long as the gradients of the two quads are equal. This feature allows us to move in as close as possible to the collision point and minimize the beta functions in the interaction region. The super- ferric design has advantages as well as drawbacks and we will discuss these in the paper.
A New Interaction Region Design for the Super-B Factory.
PAOLONI, EUGENIO;
2010-01-01
Abstract
A final focus magnet design that uses super-ferric magnets is introduced for the SuperB interaction region. The baseline design has air-core super-conducting quadrupoles.This idea instead uses super-conductingwire in an iron yoke. The iron is in the shape of a Panofsky quadrupole and this allows two quadrupoles to be side- by-side with no intervening iron as long as the gradients of the two quads are equal. This feature allows us to move in as close as possible to the collision point and minimize the beta functions in the interaction region. The super- ferric design has advantages as well as drawbacks and we will discuss these in the paper.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
